JPH0592242A - Tundish container and cushioning pad for use in said container - Google Patents

Abstract

PURPOSE: To provide an excellent impact pad, with which the flow in the horizontal direction of molten steel from an impact region toward the side wall in a tundish vessel is reduced. CONSTITUTION: This impact pad 10 is provided with a base 11, an inner guide 16 for forming a channel directing the molten steel flow from the impact region, in which the molten steel poured into the tundish vessel is received, toward a discharging hole in the tundish vessel and an outer guide 12 arranged on the base at the interval from the inner guide. The inner guide and the outer guide form the channel 14 between both guides and this channel is constituted so as to receive the molten steel flowing over the inner guide from the impact region 20 and direct the molten steel flow to the discharging hole.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an impact pad for use in a tundish container, which reduces turbulent flow of molten iron and molten steel in a tundish container and directs the flow of molten iron and molten steel. Regarding impact pads.

[0002]

BACKGROUND OF THE INVENTION Within tundish vessels of the type used in the steel industry, there is generally a change in the purity of the molten metal or steel contained in the tundish vessel. When the molten iron or molten steel is not stirred and no turbulence is generated, the impurities in the molten metal material rise to the top of the molten metal material, so-called "slag".
Form the layers. That is, the purest molten iron or molten steel is present near the bottom of the tundish container.

Molten iron or molten steel is poured into the tundish container from the top and discharged from the bottom. By maintaining a sufficient level of molten iron or molten steel in the tundish container and maintaining a sufficient residence time for the impurities to float to the top, the concentration of impurities is reduced to Out of here for further processing) to a minimum concentration. However, pouring molten iron or molten steel into the tundish container from the top of the tundish container may force a certain amount of slag material to be pushed down to the bottom of the tundish container or prevented from rising. In such cases, problems with impurities arise. Turbulence is also caused by non-uniform or other undesirable flow patterns near the bottom of the tundish container.

Various methods and devices have been invented for the purpose of reducing the turbulence caused when pouring molten iron or molten steel into a tundish container. U.S. Pat.No. 4,177,
No. 855 shows a pair of rocking doors which protect the slag layer from the turbulence created by pouring molten metal. The flat impact pad creates a lifted splash surface that helps contain most of the turbulence between the rocking slugs.

US Pat. No. 4,042,229 also discloses an impact pad having a pair of side walls which prevent molten iron or steel from flowing to the side walls of the tundish container. A second pair of sidewalls located well above the impact pad helps separate the pouring area from the slag layer.
Furthermore, German Patent 2,643,009 discloses a splash plate with a plurality of interlocking protrusions arranged in a honeycomb shape.

[0006] Some prior art devices have used side walls of the tundish container by using various side walls to help direct the flow of molten material toward a drain at one or both ends of the tundish container. It reduces the horizontal flow of molten material towards the. However, most of the flow of molten material towards the tundish level sidewalls still results from the molten material overflowing the sidewalls of conventional impact pads. This overflow acts to create a non-uniform and undesirable flow pattern and turbulence in the tundish vessel, and to form stagnation (a region where molten steel diverges from its main stream and flows almost exclusively).

[0007]

SUMMARY OF THE INVENTION It is therefore a feature and advantage of the present invention to provide an excellent impact pad which reduces the horizontal flow of molten steel from the impact region of a tundish container toward the sidewalls. Another feature and advantage of the present invention is to provide an impact pad that allows molten steel to flow from the impact area toward a mainstream leading to the drain (s) of the tundish container.

Another feature and advantage of the present invention is to provide a tundish container that is capable of smoothing the flow between the impact zone and the drain (s) and reducing turbulence. Another feature and advantage of the present invention is to provide an improved impact pad and tundish container that reduces stagnation between the impact area and sidewalls of the tundish container.

Another feature and advantage of the present invention is an impact pad and tundish container that can improve the quality and purity of the molten steel exiting the tundish container by reducing turbulence and stagnation. To provide. The above and other features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments of the invention which is set forth in connection with the accompanying drawings. The following detailed description is exemplary rather than limiting in nature.
The scope of the present invention is limited by the description of the claims and the scope equivalent thereto.

[0010]

SUMMARY OF THE INVENTION The present invention is an impact pad for use in a tundish container having an outer guide and an inner guide on each side of the impact pad closest to the sidewall of the tundish container. It relates to an impact pad with a channel formed between these two guides. The impact pad of the present invention is located in the impact area of the tundish container so that molten steel can be poured onto the impact pad within the area formed by the inner guide (or guides).

As with prior art devices, some molten steel will overflow the top of the inner guide (or guides) with the tundish impact pad of the present invention. However, according to the present invention, the molten steel that overflows on the inner guide is prevented from flowing toward the side wall of the tundish container by the corresponding outer guide. A large amount of molten steel overflowing on the inner guide flows into the channel between the inner guide and the outer guide. This causes the channels to redirect the flow of molten steel towards the main flow leading to the drain (s) located at one or both ends of the tundish vessel. This effect of the present invention minimizes cross flow and other undesirable flow patterns and turbulence and reduces flow stagnation.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT As shown in FIGS. 1 to 3, a tundish impact pad 10 of the present invention has a base 11. An outer guide 12 and an inner guide 16 project upward from the base 11, and a channel 14 is formed between these two guides 12, 16. This channel 14
The ends 24, 26 are open and preferably free of any flow obstructions, except for the guides 12, 16 which form the channel 14. The advantage of providing channels 14 free of flow obstructions is to ensure a smooth and continuous flow of molten steel in the channels 14 towards the ends 24, 26.

The inner guide 16 has a shape capable of enclosing the impact area 20 on all side surfaces except the side facing the drain when the impact pad 10 is placed in the tundish container. The inner guide 16 has an outlet 22 in the direction of the drain.
Forming a channel with molten steel at the outlet 22
It can easily flow out of the impact area 20 through. The impact area 20 is the portion of the impact pad that is directly below the molten steel as it is poured into the tundish container (ie, the portion that first contacts the molten steel).

The outer guide 12 has a shape capable of surrounding the inner guide 16 on all side surfaces except the side facing the drain. The openings (ends) 24, 26 of the channel 14 formed by the outer guide 12 and the inner guide 16 face the drain and are arranged on both sides of the opening (outlet) 22. Both of the guides 12 and 16 have a semicircular shape, and only the portion deviating from this semicircular pattern faces the drain 2 of the tundish container.
Preferably, 2, 24, 26 can be formed.
The impact pad 10 should be placed in the tundish container so that maximum impact occurs at the center of the semi-circular portion. Both guides 12 and 16 have such a shape that these semicircular portions can be arranged concentrically.

Impact area 20 (ie inner guide 16)
Impact pad 10 located inside the arc formed by
Part) can be formed flat, or
It can also be designed in any pattern that can reduce turbulence. Two impact guides 18 are shown in the embodiment of FIGS. 1-3 and these impact guides 18 help further confine the turbulence and reduce the flow towards the sidewalls of the tundish. The impact guide 18 projects upward from the base 11. The impact guides 18 are linear and are parallel to each other and also to the side wall of the tundish. Each impact guide 18
Has one end in contact with the inner guide 16. As the shape of the impact area 20, for example, US Patent Application No. 07 / 226,8
Any shape can be used, including the sine wave and other wavy patterns described in 68 and 07 / 530,164.
The entire contents of these US patent applications are incorporated herein by reference.

In the embodiment shown in FIGS. 1 to 3, the outer guide 12, the inner guide 16 and the impact guide 18 all project upward from the base portion 11 at substantially the same height. Alternatively, the heights of the guides may be different, and as an example, the outer guide 12 may be projected upward by a larger distance than the inner guide 16. The height of these guides 12, 16 and 18 is limited due to the problem of excessive turbulence in the vertical direction if the guides are too high. That is, the height of the guides is selected so that the guides minimize horizontal turbulence without causing excessive vertical turbulence. The optimum guide height can vary based on the amount and speed of molten steel entering the tundish, the size and shape of the tundish container, and other factors. In the embodiment of FIGS. 1-3, the height of the outer guide 12, the inner guide 16 and the impact guide 18 is about 6 inches (about 15 cm).

7 and 8 illustrate the placement and operation of the impact pad 10 within the tundish container. The tundish container, generally designated by the numeral 30, is a floor 3
2, a rear wall 34, a front wall 36, and two side walls 38, 40
And have. The floor 32 is located near the rear wall 34 and below the point where the molten steel enters the tundish, and near the front wall 36 where the purified molten steel exits the tundish. And a drain 44 provided.

In the impact pad 10, the impact area 20 of the impact pad 10 is the impact area 42 of the tundish container 30.
It is placed on the floor 32 of the tundish container 30 so that it substantially coincides with the impact area 42 above. Molten steel is poured into the impact area 20 from above the impact area 20. The impact zone 20 is eventually filled with molten steel flowing in continuously while the impact guide 18 helps reduce turbulence.

Most of the molten steel flowing into the inner guide 16
An outlet 22 housed inside and facing the drain 44
Flowing through. However, some amount of molten steel either splashes over the top of the inner guide 16 or flows into the channel 14. The molten steel that has flowed into the channel 14 is substantially converted into the inner guide 16 and the outer guide 12.
And an open outlet 24 of the channel 14,
Exits through 26. Open outlet 2 of channel 14
4, 26 also face the direction of the drain 44 and the main outlet 2
Adjacent to 2. Therefore, the tundish container 30
Most of the molten steel that has flowed in will flow in a single direction toward drain 44. The inner guide 16 and the outer guide 12 cooperate to prevent most molten steel from flowing toward the rear wall 34 or the side walls 38, 40, thus reducing the overall turbulence of the tundish container 30. And reduces both the amount of molten steel that stagnates behind the impact area 42 and the amount of molten steel that goes to the side walls.

A second embodiment of an impact pad of the present invention, generally designated by the numeral 50, is shown in FIGS. The impact pad 50 is designed for use in a relatively large tundish container having an impact area at or near the center and drains at both ends. Base 51
From, a pair of outer guides 52 and a pair of inner guides 5
6 and 6 project upward, and these guides 52, 5
A pair of channels 54 is formed between the channels 6. Each channel 54 is open at both ends 64, 66, as shown, and the guide 5 forming each channel 54.
There are no flow obstructions except 2,56. The purpose of providing channels 54 free of flow obstructions is to ensure a smooth and continuous flow of molten steel in the channels 54 towards both ends 64, 66.

The shapes of the guides 52 and 56 are the same as those of the impact pad 5.
When 0 is placed in the tundish container, the impact area 60 can be separated from the side wall of the tundish container and the opening can only be directed towards the drain. The inner guide 56 has an outlet 62 in the direction of each drain,
Separated to form a channel with 63 (through these outlets 62, 63 molten steel can easily flow out of the impact area 60). Both guides 52, 56
Preferably has a semicircular shape. Preferably, both inner guides 56 form part of a first circle and both outer guides 52 form a part of a larger second circle, the first and second circles being arranged concentrically. ..

Impact area 60 (ie, inner guide 56)
Impact pad 50 located inside the arc formed by
Can be formed flat or designed in any pattern that can reduce turbulence. 4 to 6
In the embodiment shown in FIG. 3, the base 51 in the impact area 60 features the sinusoidal pattern 58 described in US patent application Ser. Nos. 07 / 726,868 and 07 / 530,164. Other waveform patterns and other patterns can also be used.

In the embodiment of FIGS. 4-6, the outer guide 52, the inner guide 56 and the sinusoidal pattern 58 have different heights. The outer guide 52 is the inner guide 5
It is higher than 6 and protrudes upward from the base 51. Further, the inner guide 56 is projected higher than the sine wave of the sine wave pattern 58. The outer guide 52, inner guide 56 and sinusoidal pattern 58 may be the same height or different heights depending on the particular application. Generally speaking, the height of the guide should be chosen to minimize vertical turbulence without causing excessive vertical turbulence. The optimum height of the guide can vary based on the amount and velocity of molten steel entering the tundish vessel, the size and shape of the tundish, and other factors. In the embodiment of FIGS. 4-6,
The height of the outer guide 52 is about 4 inches (about 10 cm), the height of the inner guide 56 is about 2 inches (about 5 cm), and the height of the sine wave forming the sine wave pattern 58 is about 1 inch (about 2.5 c).
m).

9 and 10 illustrate the placement and operation of the impact pad 50 within the tundish container.
The tundish container, generally designated 70, has a floor 72,
It has two end walls 74,76 and two side walls 78,80. The floor 72 has an impact area 8 which is arranged substantially in the center.
2 and two drains 84, 86 located near the end walls 74, 76, respectively.

In the impact pad 50, the impact area 60 of the impact pad 50 is the impact area 82 of the tundish container 70.
It is placed on the floor 72 of the tundish container 70 so that it substantially coincides with the impact area 82 above. The molten steel is poured into the impact region 60 from above the impact region 60, and the impact region 60 is finally filled with the continuously flowing molten steel. Most molten steel is contained within the inner guide 56,
And the respective outlets 6 facing the drains 84, 86
It flows through 2,63. The sinusoidal pattern 58 reduces turbulence in the impact area 60 and also reduces vertical splash. Nevertheless, some amount of molten steel either splashes past the inner guide 56 or flows into the channel 54.

The molten steel flowing into the channel 54 is substantially contained between the inner guide 56 and the outer guide 52 and flows out through the open ends 64, 66 of the channel 54. The open end 64 of the channel 54 is in the direction of the flow exiting one of the main outlets 62, which flow is towards the drain 84. The open end 66 of the channel 54 is in the direction of the flow exiting the other main outlet 63, which flow is towards the drain 86. Therefore, most of the molten steel flowing into the tundish container 70 flows toward the drains 84 and 86. The inner guide 56 and the outer guide 52 cooperate to prevent most molten steel from flowing in the direction of the sidewalls 78, 80, thus reducing overall turbulence in the tundish container 70, and It also reduces the amount of molten steel that stagnates near the sidewalls 78, 80 near the impact area 82.

The impact pad of the present invention comprises a 3,000 ⁰ F (1,649
Formed of a high temperature refractory composition capable of withstanding continuous exposure of molten iron or molten steel at temperatures up to (.degree. C.). Preferably, the impact pad is about 60 to 85 wt% of Al ₂ O _3, 38~13
It consists of a refractory material containing wt% SiO ₂ , 0.9-0.5 wt% CaO and 1-0.5 wt% Fe ₂ O ₃ . Other suitable refractory materials include MgO, SiC, is Cr ₂ O ₃ and ZrO _2. The composition of the impact pad is not limited to the materials listed here, and any refractory material can be used as long as it can withstand prolonged exposure to molten iron or steel.

The above-described embodiments of the present invention are considered presently preferred, and various modifications may be made in addition to the above-described embodiments without departing from the spirit and scope of the invention. For example, the impact pad may form part of an integral structure of the tundish container.
The scope of the present invention is as set forth in the claims, and any modifications having equivalent meaning and scope to the description of the claims are included in the claims.

[Brief description of drawings]

FIG. 1 is a plan view of a tundish impact pad of the present invention designed for use in a tundish container with a drain on only one end.

2 is a cross-sectional view of the tundish impact pad taken along line 2-2 of FIG.

3 is a cross-sectional view of the tundish impact pad taken along line 3-3 of FIG.

FIG. 4 is a plan view of a second embodiment of a tundish impact pad of the present invention designed for use with a tundish container having drains at both ends.

5 is a cross-sectional view of the tundish impact pad taken along line 5-5 of FIG.

6 is a cross-sectional view of the tundish impact pad taken along line 6-6 of FIG.

FIG. 7 is a side view showing a cross section of a tundish container having an impact pad of the type shown in FIGS.

8 is a plan view showing the tundish container of FIG. 7. FIG.

9 is a side view showing a cross section of a tundish container equipped with an impact pad of the type shown in FIGS. 4 to 6. FIG.

10 is a plan view showing the tundish container of FIG. 9. FIG.

[Explanation of symbols]

10 Tundish Impact Pad 11 Base 12 Tundish Impact Pad Outer Guide 14 Channel 16 Tundish Impact Pad Inner Guide 18 Tundish Impact Pad Impact Guide 20 Tundish Impact Pad Impact Area 22 Tundish Impact Pad Exit (Opening , Main outlet) 24 Channel end (opening) 26 Channel end (opening) 30 Tundish container 32 Tundish container floor 34 Tundish container rear wall 36 Tundish container front wall 38 Tundish container side wall 40 Side wall of tundish container 42 Impact area of tundish container 44 Drain of tundish container 50 Tundish impact pad 51 Base 52 Tundish impact pad outer guide 54 Channel 56 Inner guide of dish impact pad 58 Sine wave pattern 60 Impact area of tundish impact pad 62 Outlet (main outlet) 63 Outlet (main outlet) 64 End of channel (open end) 66 End of channel (open end) 70 Tundish container 72 Tundish container floor 74 Tundish container end wall 76 Tundish container end wall 78 Tundish container side wall 80 Tundish container side wall 82 Tundish container impact area 84 Tundish container drain 86 Drain of tundish container

Claims (20)

[Claims] 1. An impact pad for use in a tundish container, a base, an impact region on the base for receiving molten iron or molten steel poured into the tundish container, and an impact flow of molten iron or molten steel. An inner guide formed on the base that forms a channel directing from the region to the drain of the tundish container, at least a portion of the inner guide being located adjacent to the impact region. And further comprising an outer guide partially surrounding the impact area and spaced apart from the inner guide on the base, the inner guide and the outer guide forming a channel therebetween. The channel receives the molten iron or molten steel flowing from the impact area over the inner guide and directs the flow of the molten iron or molten steel to the drain. Impact pad according to claim 1, characterized in that. 2. The inner guide forms a channel that is open only in one direction to direct the flow of molten iron or molten steel from the impact region to the drain of the tundish container, and the molten iron or molten steel The steel is surrounded in all other directions so as to prevent the steel from flowing in the direction of the side wall or rear wall of the tundish container.
Impact pad described in. 3. The outer guide surrounds the inner guide in all directions except toward the drain,
3. Impact pad according to claim 2, characterized in that the channel formed by the inner guide and the outer guide comprises an opening which opens in the direction of the drain near the opening formed by the inner guide. 4. The impact pad of claim 1, wherein a portion of the inner guide that partially surrounds the impact area is semi-circular. 5. The impact pad of claim 3, wherein a portion of the outer guide that partially surrounds the inner guide is semi-circular. 6. A base has two inner guides provided on the base, and a channel is formed between the inner guides, the channel impacting a flow of molten iron or molten steel. A two-way opening pointing from the area towards two or more drains of the tundish container, said inner guide preventing molten iron or steel from flowing towards the side wall of the tundish container. The impact pad according to claim 1, wherein the impact pad surrounds all other directions. 7. There are two outer guides provided on the base at a distance from the respective inner guides, and a channel is formed between each of the inner guides and the outer guides. Wherein the channels receive molten iron or molten steel flowing from the impact area past the respective inner guides and direct the flow of the molten iron or molten steel to the drain, the outer guides of the tundish container The impact pad according to claim 6, which prevents molten iron or molten steel from flowing toward the side wall. 8. The inner guide and the outer guide have a semicircular shape, both inner guides form part of a first circle, and both outer guides are concentric with the first circle. The impact pad according to claim 7, wherein the impact pad forms a part of the second circle. 9. The impact area further comprises two linear and parallel impact guides provided on the base, and one end of each impact guide is in contact with the inner guide. The impact pad according to claim 1. 10. The impact pad according to claim 1, further comprising a sine wave pattern provided on the base of the impact guide. 11. A tundish container having a floor, a back wall, a front wall, two side walls, an impact area located on the floor near the back wall, and a drain located on the floor near the front wall. , An impact pad disposed on the floor so as to cover the impact area, the impact pad being substantially in line with the impact area of the tundish container and all directions except the direction to the drain. And an inner guide that surrounds the impact area at which the inner guide forms a channel from the impact area that is open in the direction of the drain and is inward in all directions except the direction to the drain. A tundish container further comprising an outer guide surrounding the guide and a channel between the inner guide and the outer guide opening in a direction toward a drain. 12. The tundish container according to claim 11, wherein at least a part of the inner guide and the outer guide has a semicircular shape. 13. The tundish container according to claim 11, wherein the inner guide and the outer guide have substantially the same height. 14. 1 in the impact area of the impact pad
The tundish container according to claim 11, further comprising one or more impact guides. 15. The tundish container of claim 1, wherein the impact pad forms part of an integral structure of the tundish container. 16. A floor, a rear wall, a front wall, two side walls, an impact area located on the floor approximately at the center between the rear wall and the front wall, a first drain provided on the floor near the rear wall, And a tundish container having a second drain on the floor near the front wall, the tundish container having an impact pad disposed on the floor to cover the impact area, the impact pad comprising: And a pair of inner guides between the impact area and the side wall, the inner guides having a first drain direction and a second drain direction. Forming a channel with openings in both directions, and having a pair of outer guides, each of the outer guides being disposed between an inner guide and a side wall, respectively. And further, each of the channels having an inner Tundish vessel, characterized in that it is open near the both opening of the channel formed by the inner guide forming a and pairs being formed by Id and the outer guide. 17. The tundish container according to claim 16, wherein the inner guide and the outer guide have a semicircular shape. 18. The tundish container according to claim 16, wherein the outer guide is higher than the inner guide. 19. The tundish container of claim 16, further comprising a sinusoidal pattern provided in the impact area of the impact pad. 20. The tundish container of claim 16, wherein the impact pad forms part of an integral structure of the tundish container.